1. Field of Invention
The invention relates to a discharge lamp of the short arc type which is used, for example, as the light source of a projector, and which is filled with xenon. The invention also relates to a discharge lamp of the short arc type which is used as a light source for semiconductor exposure and which is filled with mercury.
2. Description of Related Art
In a discharge lamp of the short arc type there is normally a trigger wire on the outside surface of the arc tube for reducing the breakdown voltage.
Japanese patent disclosure document JP SHO 51-78586 A discloses as a process for attachment of the trigger wire in a lamp a technique in which hermetically sealing parts which border the two ends of the arc tube are wound once with a trigger wire and in which the ends of the wound trigger wire are twisted with a tool and attached.
Furthermore, Japanese patent disclosure document JP 2002-367566 A (U.S. Pat. No. 6,657,383 B2) discloses a technique in which the following is done:
In the technique shown in Japanese patent disclosure document JP SHO 51-78586 A, the ends of the trigger wire are twisted with a tool and slipped on. Therefore, there is the danger that the twisting tool will come into contact with the glass surfaces of the hermetically sealing parts and the arc tube and will damage the glass surfaces. In a discharge lamp of the short arc type in which the inside of the arc tube during operation of the lamp reaches a high pressure, this damage causes the lamp to break. Since the twisting process is repeated several times, there is also the danger that the trigger wire will rub off the heat insulating film which is formed on the surfaces of the hermetically sealing parts and the arc tube, that the heat insulating film will come off and that the appearance of the lamp will be damaged.
In the trigger wire described in Japanese patent disclosure document JP 2002-367566 A (U.S. Pat. No. 6,657,383 B2), the time for installation of the trigger wire is shortened, by which workability is improved. However, if the duration of operation is lengthened, the trigger wire is exposed to a high temperature during this time. There are the disadvantages here that the resilience is lost and that the spring-like parts, as a result of the loosened shape, fall off of the hermetically sealing parts. When the trigger wire falls off the lamp, the function of the trigger wire which actually supports starting is lost.
As a countermeasure against loosening of the trigger wire of stainless steel as a result of a high temperature, it can be imagined that the wire diameter is increased. However, increasing the wire diameter causes the trigger wire to become hard. The work of installing the trigger wire is made difficult thereby and the actual purpose of shaping it beforehand into a resilient shape to improve workability is lost. The trigger wire, when hardened, furthermore, damages the glass surfaces of the hermetically sealing parts when the hermetically sealing parts are inserted into the elastic parts; this causes the lamp to break. A thick trigger wire in a lamp for semiconductor exposure also shields the light radiated from the lamp; this also hinders the uniformity of the illuminance of the irradiated surface.
As a countermeasure against loosening of the trigger wire of stainless steel as a result of a high temperature, it can be imagined that the wire material is changed. However, since the trigger wire, which is adjacent to the arc tube which reaches 500° C. to 750° C. during lamp operation in the atmosphere, is exposed to a high temperature, the selection of metal wires which have resistance over a long time at a high temperature and which are suited as a spring material is more and more limited. For example, platinum or the like is resistant to a high temperature and is therefore advantageous as an spring material. However, that platinum is expensive and easily burns through are disadvantages, and there are similar disadvantages.
The invention was devised to eliminate the above described disadvantages in the prior art. Thus, a primary object of the present invention is to devise a discharge lamp of the short arc type with a trigger wire which, when installed, does not damage the lamp, which can be easily installed and which is designed to be reliably held by the hermetically sealing parts even upon loss of resilience due to use of the lamp at a high temperature over a long time.
The above described object is achieved by the invention as follows.
In a first aspect of the invention for a discharge lamp of the short arc type which comprises the following:
In accordance with a second aspect of the invention, in a discharge lamp of the short arc type according to the first aspect, this object is achieved in that, in vertical operation in which one of the two electrodes is located over the other, the trigger wire has the above described bend only on the side of the upper hermetically sealing part and the above described fold.
Since, in the invention described in the first aspect, in a discharge lamp of the short arc type which comprises the following:
In the invention described in the second aspect, there is the measure that, for vertical operation in which one of the electrodes is located at the top and the other is at the bottom, the trigger wire only on the side of the upper hermetically sealing part has the above described bend and the above described fold, and that the trigger wire is slipped onto the hermetically sealing parts in this way, the lamp can be reliably held even when the trigger wire is used at a high temperature over a long time, also if on the side of the lower hermetically sealing part the trigger wire is only wound once around the hermetically sealing part.
The invention is described in detail below with reference to the accompanying the drawings.
FIGS. 1(1) and 1(2) each show a schematic of the arrangement of a first embodiment of a trigger wire which is slipped onto a discharge lamp of the short arc type according to the invention;
FIGS. 2(1) to 2(8) each show a schematic of the sequence of production of the trigger wire shown in FIGS. 1(1) and 1(2);
FIGS. 3(1) to 3(4) each show a schematic of a step in the sequence of installation of the trigger wire on a discharge lamp of the short arc type in accordance with the first embodiment of the invention;
FIGS. 4(1) and 4(2) each show a schematic of a second embodiment of the arrangement of the trigger wire which is slipped onto a discharge lamp of the short arc type as claimed in the invention;
FIGS. 5(1) to 5(8) each show a schematic of a step in the sequence of producing the trigger wire shown in FIGS. 4(1) and 4(2);
FIG. 6(1) shows a schematic of a third embodiment of the arrangement of the trigger wire which is slipped onto a discharge lamp of the short arc type in accordance with the invention with an enlarged detail thereof being shown in FIG. 6(2);
A first embodiment of the invention is described below using FIGS. 1(1), 1(2) to FIGS. 3(1) to 3(4).
FIG. 1(1) shows the arrangement of a trigger wire which is slipped onto the discharge lamp of the short arc type with FIG. 1(2) being an enlarged view of a bend 3 and a fold 51 and their vicinity as shown in FIG. 1(1).
In these figures, the middle area 1 of a trigger wire which is located along the outer surface of an arc tube of the short arc type and is arc-shaped. Each end 2 of the trigger wire is slipped onto a respective one of the hermetically sealing parts of the discharge lamp of the short arc type (not shown). A bend 3 is formed between the middle area 1 and the end 2. A fold 51 is kinked essentially in a V-shape in the tip area of the end 2.
FIG. 2(1) to 2(8) each schematically show a step in the sequence of producing the trigger wire shown in FIG. 1(1).
First, as shown in
FIGS. 3(1) to 3(4) show the sequence of installation of a trigger wire according to the first embodiment of the invention in a discharge lamp of the short arc type. In FIGS. 3(1) to 3(4), the discharge lamp of the short arc type has an arc tube 6 with hermetically sealing parts 7.
First, as shown in FIG. 3(1), the discharge lamp of the short arc type is placed opposite the trigger wire in order to slip the trigger wire onto the discharge lamp of the short arc type. Next, the intermediate space between the bend 3 on one end 2 of the trigger wire and the fold 51, as is shown in FIG. 3(2), is spread, and this one end 2 is suspended on one of the hermetically sealing tubes 7. Next, the part of the bend 3 which has approached the middle area 1 is clamped into the fold 51 which is formed essentially in a V shape, as is shown in
As was described above, when the trigger is attached to the lamp, the trigger wire can be easily installed without damage to the lamp by the trigger wire in the embodiment of the invention, and furthermore, it can be reliably held on the hermetically sealing parts even if the resilience of the trigger wire is lost by use at a high temperature of the lamp over a long time.
A second embodiment of the invention is described below using FIGS. 4(1), 4(2) and 5(1) to 5(8). FIG. 4(1) is a schematic of the arrangement of a trigger wire which is slipped onto a discharge lamp of the short arc type according to this embodiment of the invention. FIG. 4(2) is an enlargement of the bend 3 and the fold 52 and their vicinity which are shown in FIG. 4(1). In this embodiment, the fold is a small, annular fold 52 which is formed in the tip area of the end 2 of the trigger wire. The remaining arrangement is identical to the arrangement shown in FIGS. 1(1) and 1(2), and therefore, is provided with the same reference numbers. As a result, it is not further described.
FIGS. 5(1) to 5(8) each schematically show the sequence of production of the trigger wire shown in FIG. 4(1). First, as shown in FIG. 5(1), a small annular fold 52 is formed on the tip area of one end 2 of the trigger wire. Next, as shown in FIG. 5(2), a ring-shaped part is formed on one end 2 of the trigger wire. Thereupon, as shown in FIG. 5(3) the middle area 1 of the trigger wire is formed into an arc-shape. Next, as shown in FIG. 5(4), the other end 2 of the trigger wire is made ring-shaped. Next, as shown in FIG. 5(5), a small annular fold 52 is formed on the other end 2 of the trigger wire. Then, as shown in FIG. 5(6), heat treatment is performed to set the shape which was formed as shown in FIG. 5(5). Next, as shown in FIG. 5(7), at the starting points A and B in the figure, the ends 2 are twisted essentially 90°. Afterwards, as shown in FIG. 5(8), at the starting points A and B, the ends 2 are bent essentially by 90°, by which a respective bend 3 is formed at each of the above described starting points A and B. As a result, a trigger wire according to the second embodiment of the invention is obtained.
The sequence of installation of a trigger wire according to the second embodiment of the invention in a discharge lamp of the short arc type is not shown in the drawings. However, it is essentially identical to the installation sequence which shown in FIG. 3(1) to 3(4) for the first embodiment. The sequence shown in FIGS. 3(3) and 3(4) differs in that the small annularly made fold 52 is hooked onto the part of the bend 3 near the middle area. However, the two are identical to one another in the sense of slipping the two ends 2 of the trigger wire onto the hermetically sealing parts 7.
For the trigger wire in this embodiment of the invention, when the trigger wire is mounted, it can be easily installed in the lamp without damaging the latter and can be reliably held on the hermetically sealing parts even if the resilience of the trigger wire is lost due to use at a high temperature of the lamp over a long time.
A third embodiment of the invention is described below with reference to FIGS. 6(1) and 6(2).
FIG. 6(1) shows a schematic of the arrangement of the trigger wire which can be slipped onto the discharge lamp of the short arc type in accordance with another embodiment of the invention. FIG. 6(2) is an enlargement the area of the bend 3 and of the fold 53 which are shown in FIG. 6(1).
In this embodiment, the fold is a fold 53 which has been formed on the tip area of the end 2 of the trigger wire essentially in the shape of a small square. The arrangement otherwise is identical to the arrangement shown in FIGS. 1(1) and 1(2) and is provided with the same reference numbers. Therefore, it need not be further described.
The sequence of production of the trigger wire according to the embodiment of the invention is not shown in the drawings; however, it is essentially identical to the sequence of production which was shown in FIGS. 2(1) to 2(8) for the first embodiment. The sequence of production which is shown starting with FIG. 2(7) differs in that the fold 53 at the tip area of the end 2 is formed essentially in the shape of a small square.
The sequence of installation of the trigger wire according to the embodiment of the invention in the discharge lamp of the short arc type is not shown in the drawings; however, it is essentially identical to the installation sequence which is shown in FIG. 3(1) to 3(4) in the first embodiment. The sequence shown in FIGS. 3(3) and 3(4) differs in that the fold 53 which was formed essentially in the shape of a small square is hooked onto the area of the bend 3 near the middle area, like the case for the second embodiment. On the other hand, the installation is identical to the first embodiment in the sense of slipping the ends 2 of the trigger wire onto a respective one of the hermetically sealing parts 7.
For the trigger wire in this embodiment of the invention, when the trigger wire is mounted, it can be easily installed on the lamp without damaging the latter and can be reliably held on the hermetically sealing parts even if the resilience of the trigger wire is lost at a high temperature of the lamp over a long time.
A fourth embodiment of the invention is described below with reference to
The trigger wire of this embodiment of the invention has a fold 51 formed on one of the ends 2 which are formed on the two ends of the trigger wire. On the other end 2, only a turn 4 is formed which is wound around the hermetically sealing part, and not a fold 51. The arrangement otherwise is identical to the arrangement shown in FIGS. 1(1) and 1(2) and is provided with the same reference numbers, and therefore, need not be further described. Furthermore, instead of the fold 51, the types of folds 52, 53 shown in the second and third embodiments can also be used.
In vertical operation in which one of the electrodes in the arc tube is located at the top and the other at the bottom, this trigger wire is slipped onto the hermetically sealing part that is the upper hermetically sealing part, the bend 3 being hooked in the fold 51. On the lower hermetically sealing part, the turn 4 is wound once around the hermetically sealing part. In vertical operation, by this arrangement of the trigger wire, the latter can also be reliably held even when used at a high temperature of the lamp over a long time.
Number | Date | Country | Kind |
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2004-263911 | Sep 2004 | JP | national |
Number | Name | Date | Kind |
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5723944 | Higashi et al. | Mar 1998 | A |
6002197 | Tanaka et al. | Dec 1999 | A |
6552502 | Okamoto et al. | Apr 2003 | B2 |
6657383 | Matsushima et al. | Dec 2003 | B2 |
6919686 | Okamoto et al. | Jul 2005 | B2 |
7034460 | Takahashi et al. | Apr 2006 | B2 |
7057345 | Kikuchi et al. | Jun 2006 | B2 |
Number | Date | Country |
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51-78586 | Jul 1976 | JP |
Number | Date | Country | |
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20060055327 A1 | Mar 2006 | US |